CN104630818B - The method that the film continuous electrolysis of three Room two prepares high-purity benzyltrimethylammonium hydroxide - Google Patents

The method that the film continuous electrolysis of three Room two prepares high-purity benzyltrimethylammonium hydroxide Download PDF

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CN104630818B
CN104630818B CN201510077134.8A CN201510077134A CN104630818B CN 104630818 B CN104630818 B CN 104630818B CN 201510077134 A CN201510077134 A CN 201510077134A CN 104630818 B CN104630818 B CN 104630818B
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benzyltrimethylammonium hydroxide
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赵文洲
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Abstract

The present invention discloses a kind of method that film continuous electrolysis of three Room two prepares high-purity benzyltrimethylammonium hydroxide, by concentration for 30% ~ 50% the benzyltrimethylammonium chloride aqueous solution from material inlet enter anode chamber in, concentration is added in medial compartment for 5 ~ 30% benzyltrimethylammonium hydroxide aqueous solution, concentration is added in cathode chamber for 5 ~ 30% benzyltrimethylammonium hydroxide aqueous solution, all circulating pumps are opened, connection plate and cathode plate continuous electrolysis is turned on the power;The removal of impurity is gone by the selection and continuous circulating filtration of cationic membrane, the benzyltrimethylammonium hydroxide of available 5% ~ 30% high-purity, each concentration of metal ions in benzyltrimethylammonium hydroxide is respectively less than 20 ppb, each anion concentration is respectively less than 1 ppm, product purity is higher, and current efficiency is 61 ~ 72%, and utilization rate of electrical is high, the energy is saved, conversion rate of products is more than 98%.

Description

The method that the film continuous electrolysis of three Room two prepares high-purity benzyltrimethylammonium hydroxide
Technical field
The present invention relates to a kind of method prepared by benzyltrimethylammonium hydroxide, refer in particular to using benzyltrimethylammonium chloride as original The method for expecting to prepare high-purity benzyltrimethylammonium hydroxide.
Background technology
Benzyltrimethylammonium hydroxide(BTMAH)It is a kind of organic base, can be used as phase transfer catalyst, Zeolite synthesis Alkali source, template, are mainly used in the fields such as the agent of petroleum industry removing impurities, catalyst.Benzyltrimethylammonium hydroxide is existing to be prepared Method has following several:
First, chemical method
1st, it is that raw material and silver oxide react preparation in a solvent using benzyl trimethyl halo ammonium, defect is;Silver oxide is too expensive Cause cost too high, a certain amount of product is contained in silver halide precipitation thing, yield is low, and after recovery section solvent, it is necessary to plus Water makes the benzyltrimethylammonium hydroxide aqueous solution, not only causes the big cost of waste of solvent high, and can produce substantial amounts of containing molten The waste water of agent.
2nd, it is that raw material and potassium hydroxide react preparation in a solvent using benzyl trimethyl halo ammonium, defect is;By-product halogenation Contain a certain amount of benzyltrimethylammonium hydroxide in potassium solid, product yield is low, cost is high;Because by-product potassium halide is in solvent In have certain solubility, cause halogen ion content and potassium in product general in 1000 ppm or so, poor quality, while can also make It is high into the big cost of waste of solvent, produce substantial amounts of solvent-laden waste water.
2 kinds of preparation methods of the above are batch process reaction, and labor intensity is big, and process is more, is unsuitable for large-scale production.
2nd, by raw material of benzyl trimethyl halo ammonium by carrying out ion exchange preparation with basic resin, defect is;Resin Regeneration is very frequent, and regeneration every time can produce a large amount of waste water containing halogen ion, and be difficult processing, be unfavorable for environmental protection, in addition, alkaline Resin must be regenerated with alkali such as sodium hydroxide, certainly will be brought the alkali metal ion of part into, be have impact on the quality of product.
The content of the invention
Present invention aims to overcome that existing production benzyltrimethylammonium hydroxide product yield is not high, product purity is low, Operation inconvenience, the shortcoming that wastewater flow rate is big, be difficult to wide scale security produces prepare high-purity benzyl there is provided a kind of film continuous electrolysis of three Room two The method of base trimethylammonium hydroxide.
The technical solution adopted by the present invention has steps of:
1)One electrolytic cell is divided into anode chamber, medial compartment and cathode chamber successively, between anode chamber and medial compartment, medial compartment Respectively it is separated by between cathode chamber with a cationic membrane, forms the structure of the film of three Room two;Plate, negative electrode are inserted in the anode compartment Cathode plate is inserted in room;Power supply is connected between plate and cathode plate;By material inlet successively through first circulation pump, Jointed anode room bottom after first filter, the second circulation pump mutually concatenated and the second filtering are connected by intermediate chamber bottom portion itself Device, with pipeline jointed anode room bottom between the second filter and intermediate chamber bottom portion;Cathode chamber bottom itself connection is mutually gone here and there The 3rd circulating pump connect and the 3rd filter, intermediate chamber bottom portion is connected between the 3rd filter and cathode chamber bottom with pipeline; Material outlet will be concatenated at the top of anode chamber after the 4th circulating pump, the 4th filter successively;It will be circulated at the top of cathode chamber through the 5th Pump connects filler;
2)By concentration for 30% ~ 50% the benzyltrimethylammonium chloride aqueous solution from material inlet successively through first circulation It is in entering anode chamber from anode chamber bottom after pump, the first filter, concentration is water-soluble for 5 ~ 30% benzyltrimethylammonium hydroxide Liquid add medial compartment in, by concentration for 5 ~ 30% the benzyltrimethylammonium hydroxide aqueous solution from filler again through the 5th circulating pump Add in cathode chamber;All circulating pumps are opened, connection plate and cathode plate continuous electrolysis is turned on the power;
3)The benzyltrimethylammonium hydroxide that concentration is 5% ~ 30% is obtained after continuous electrolysis in the cathodic compartment, from cathode chamber bottom The discharging opening output in portion.
Further, in continuous electrolysis, in anode chamber, benzyltrimethylammonium chloride hydrolysis generation benzyltrimethylammon.um sun Ion C10H16N+And anion Cl-, water, which can be hydrolyzed, generates H+And OH-, C10H16N+、H+With the part metals cation in solution RN+Enter through cation-exchange membrane in medial compartment 2, Cl-With OH-Reach and chlorine and oxygen discharge, portion are produced after plate Divide RN+With OH-Generate sediment, sediment and remainder RN+Removed when returning to head tank through the 4th circulating pump by the 4th filter Go;In medial compartment, C10H16N+With OH-Generate benzyltrimethylammonium hydroxide C10H16NOH, part RN+With OH-The precipitation of generation Thing is removed through second circulation pump interior circulation by the second filter, part C10H16NOH enters in anode chamber;Into the Cl of anode chamber- Reach and gas discharge is produced after plate;In cathode chamber, C10H16N+With OH-Produce C10H16NOH, H+Reach cathode plate life Into H2It is expelled directly out, part C10H16NOH enters in medial compartment, part RN+With OH-Sediment is generated through the 3rd circulating pump by the 3rd Filter is removed.
The advantage of the invention is that:
1. during using continuous process electrolysis, continuous feed, continuous discharge, electrolytic cell inner anode room, medial compartment and negative electrode Indoor each material concentration relative constancy, temperature relative constancy, cationic membrane, which is not susceptible to be swelled or shunk etc., influences the ionic membrane longevity The disadvantage of life and performance, saves film cost, improves current efficiency and conversion rate of products, reduce energy consumption, also further improves Product quality.
2. continuity method electrolysis is easy to using automation, instrument centralized Control reduces the workload of operating personnel, produces Security and reliability greatly improve, the generation of all kinds of security incidents can be reduced, be suitable for wide scale security production.
3rd, continuity method electrolysis is cleansing preparation method of making, and no waste water, waste gas, solid waste discharge, the gas of anode chamber can pass through alkali Absorb, generation other products sale.
Brief description of the drawings
The present invention will be further described with reference to the accompanying drawings and detailed description;
Fig. 1 is the medium in the electrolysis reaction device structure chart and chamber of the film ionic membrane of three Room two of the present invention Schematic diagram;
In figure:1. anode chamber;2. medial compartment;3. cathode chamber;4. plate;5. cathode plate;6. cationic membrane;7. sun Ionic membrane;8. power supply;9. alternating current;10. material inlet;11. discharging opening;12. part circulation fluid charging aperture;13. part is followed Ring liquid charging aperture;14. circulating pump;15. filter;16. circulating pump;17. filter;18. circulating pump;19. filter;20. follow Ring pump;21. circulating pump;22. filter;23. low concentration material outlet;
Cl-It is chlorion;R1+It is benzyltrimethylammoncation cation C10H16N+;Rn+It is various metal cations;ROH is each Plant precipitate metal hydroxides.
Embodiment
The film continuous electrolysis of three Room two of the invention prepares high-purity benzyltrimethylammonium hydroxide method use the film of three Room two from The electrolysis reaction device of sub- film, the electrolysis reaction device as shown in figure 1, be divided into anode chamber 1, medial compartment successively by an electrolytic cell 2 and cathode chamber 3, left side is anode chamber 1, and right side is cathode chamber 3, is medial compartment 2 between anode chamber 1 and cathode chamber 3.Anode chamber It is separated by between 1 and medial compartment 2 with cationic membrane 6, is separated by between medial compartment 2 and cathode chamber 3 with cationic membrane 7, forms three Room two The structure of film.Plate 4 is inserted in anode chamber 1, cathode plate 5 is inserted in cathode chamber 3;Plate 4 and negative electrode pole Power supply 8 is connected between plate 5, power supply 8 connects alternating current 9, turn on the power 8 electricity just connected between plate 4 and cathode plate 5 Stream.
Material inlet 10 concatenates filter 15, the bottom of the jointed anode room 1 of filter 15 through circulating pump 14.
Circulating pump 16 and filter 17 that the connection of the bottom itself of medial compartment 2 is mutually concatenated, in filter 17 and the bottom of medial compartment 2 Between with the charging aperture 12 of the bottom of pipeline jointed anode room 1, make the part circulation fluid of medial compartment 2 through charging aperture 12 enter anode chamber 1 It is interior.
Circulating pump 18 and filter 19 that the connection of the bottom itself of cathode chamber 3 is mutually concatenated, in filter 19 and the bottom of cathode chamber 3 Between the charging aperture 13 of medial compartment 2 bottom is connected with pipeline, the part circulation fluid of cathode chamber 3 is entered medial compartment 2 through charging aperture 13 It is interior.Outlet for product 11 is provided with the bottom of cathode chamber 3, the high-purity benzyltrimethylammonium hydroxide prepared is defeated from discharging opening 11 Go out.
In the top of anode chamber 1 connection circulating pump 21, the concatenation filter 22 of circulating pump 21, the concatenation low concentration raw material of filter 22 Outlet 23;Low concentration raw material returns to head tank after being concentrated after circulating pump 21, filter 22 through low concentration material outlet 23 to be continued Use.
The top of cathode chamber 3 connection circulating pump 20, the connection of circulating pump 20 filler, supplement water is by filler again through circulating pump 20 Into in cathode chamber 3.
When preparing high-purity benzyltrimethylammonium hydroxide, the temperature of continuous electrolysis is 25 ~ 70 DEG C in electrolytic cell, in this temperature Under, high-purity benzyltrimethylammonium hydroxide is continuously prepared as raw material using certain density benzyltrimethylammonium chloride.Specifically:
First by concentration for 30% ~ 50% the benzyltrimethylammonium chloride aqueous solution from material inlet 10 through circulating pump 14, mistake Enter after filter 15 in anode chamber 1, concentration is added in medial compartment 2 for 5 ~ 30% benzyltrimethylammonium hydroxide aqueous solution, will Concentration is added in cathode chamber 3 through circulating pump 20 again for 5 ~ 30% benzyltrimethylammonium hydroxide aqueous solution from filler.Then, Open the circulation pump 14,16,18,20 and 21.Incoming transport electricity 9, makes the negative electrode in the plate 4 and cathode chamber 3 in anode chamber 1 Pole plate 5 connects direct current, and current density during continuous electrolysis is 800 ~ 2000 A/m2
In anode chamber 1, benzyltrimethylammonium chloride hydrolysis generation cation and anion:I.e. benzyltrimethylammon.um sun from Sub- C10H16N+And anion Cl-;Water can hydrolyze generation H+And OH-.Wherein, cation C10H16N+、H+With the part in solution Metal cation RN+Enter through cation-exchange membrane 6 in medial compartment 2.And anion Cl-With OH-Plate 4 is reached, is lost De-electromation produces chlorine and oxygen gas gas, and the stomata that these gases are opened from the top of anode chamber 1 is expelled directly out.Part metals Cation RN+Such as Ca2+、Mg2+Meeting and OH-Generation is various hydroxide precipitate ROH, sediment ROH and remainder Metal cation is removed when returning to head tank through circulating pump 21 in the Matter Transfer of anode chamber 1 by filter 22.
In medial compartment 2, benzyltrimethylammoncation cation C10H16N+The OH come with cathode chamber 3-(Migrated to anode)Generation Benzyltrimethylammonium hydroxide C10H16NOH, part metals cation RN+With OH-The sediment of generation is through the interior circulation of circulating pump 16 Removed by filter 17, part benzyltrimethylammonium hydroxide C10H16NOH enters in anode chamber 1, is to reduce medial compartment 2 Middle anion Cl-Concentration, make anion Cl as few as possible-Into cathode chamber 3, into the anion Cl of anode chamber 1-Reach Gas discharge is produced after plate 4.
In cathode chamber 3, the benzyltrimethylammoncation cation C come is migrated from medial compartment 210H16N+With the water in cathode chamber 3 Hydrolyze the OH of generation-Produce benzyltrimethylammonium hydroxide C10H16NOH, H+Cathode plate 4 is reached to obtain being electronically generated H2, H2Through The stomata that the top of cathode chamber 3 is opened is expelled directly out.Part benzyltrimethylammonium hydroxide enters in medial compartment 2, to reduce negative electrode Anion Cl in room 3-Concentration, to ensure the anion Cl of cathode chamber 3-Concentration can be less than 1 ppm, it is ensured that product Quality;Meanwhile, part metals cation RN+With OH-The sediment of generation is removed through circulating pump 18 by filter 19, and filtrate is continued It is pumped back in cathode chamber 3 and reacts by circulating pump 18.By the benzyl trimethyl hydroxide that the concentration obtained in cathode chamber 3 is 5% ~ 30% Ammonium is exported from the discharging opening 11 of the bottom of cathode chamber 3.
The present invention goes the removal of impurity by the selection and continuous circulating filtration of cationic membrane, can obtain 5% ~ 30% high-purity Benzyltrimethylammonium hydroxide.During reaction, water is raw material, is needed when cathode chamber 3 needs to add water in cathode chamber 3 Supplement water, supplement water number, determined by the content of the aqueous solution of finished product benzyltrimethylammonium hydroxide.Exported by cathode chamber 3 Benzyltrimethylammonium hydroxide in each concentration of metal ions be respectively less than 20 ppb, each anion concentration is respectively less than 1 ppm, Product purity is higher, and current efficiency is 61 ~ 72%, and utilization rate of electrical is high, saves the energy;Conversion rate of products is more than 98%, cost It is low;It is easy to use Automated condtrol, realizes industrialization wide scale security production.
5 embodiments of the invention presented below, each embodiment is using the device shown in Fig. 1.
Embodiment 1
At a temperature of 25 DEG C, concentration is added into anode chamber 1, current density for 30% benzyltrimethylammonium chloride solution 800A/m2, after cell reaction, medial compartment 2, the concentration of cathode chamber 3 are 25% benzyltrimethylammonium hydroxide.Each metal in product Ion concentration is less than 20 ppb, and chlorion is less than 1ppm(It is shown in Table one);Current efficiency is 61%, conversion rate of products 98.2%.
Embodiment 2
At a temperature of 25 DEG C, concentration is added into anode chamber 1 for the 50% benzyltrimethylammonium chloride aqueous solution, using 1500 A/ ㎡ current density, after cell reaction, medial compartment 2, the concentration of cathode chamber 3 are 25% benzyltrimethylammonium hydroxide.In product Each concentration of metal ions is less than 20 ppb, and chlorion is less than 1ppm(It is shown in Table one);Current efficiency is 63%, conversion rate of products 98.3%。
Embodiment 3
At a temperature of 50 DEG C, concentration is added into anode chamber 1, current density for the 50% benzyltrimethylammonium chloride aqueous solution 1500 A/m2, after cell reaction, medial compartment 2, the concentration of cathode chamber 3 are 25% benzyltrimethylammonium hydroxide.Each gold in product Belong to ion concentration and be less than 20 ppb, chlorion is less than 1ppm(It is shown in Table one);Current efficiency is 69%, conversion rate of products 98.5%.
Embodiment 4
At a temperature of 70 DEG C, concentration is added into anode chamber 1, current density for the 50% benzyltrimethylammonium chloride aqueous solution 1500 A/m2, after cell reaction, medial compartment 2, the concentration of cathode chamber 3 are 25% benzyltrimethylammonium hydroxide.Each gold in product Belong to ion concentration and be less than 20 ppb, chlorion is less than 1 ppm(It is shown in Table one);Current efficiency is 72%, conversion rate of products 98.1%.
Embodiment 5
At a temperature of 50 DEG C, concentration is added into anode chamber 1, current density for the 50% benzyltrimethylammonium chloride aqueous solution 2000A/m2, after cell reaction, medial compartment 2, the concentration of cathode chamber 3 are 25% benzyltrimethylammonium hydroxide.Each metal in product Ion concentration is less than 20 ppb, and chlorion is less than 100 ppm(It is shown in Table one);Current efficiency is 68%, conversion rate of products 98.1%.
The metal ion neutralization product of table one and chloride ion content:

Claims (4)

1. a kind of method that film continuous electrolysis of three Room two prepares high-purity benzyltrimethylammonium hydroxide, it is characterized in that with following step Suddenly:
1)One electrolytic cell is divided into anode chamber successively(1), medial compartment(2)And cathode chamber(3), anode chamber(1)And medial compartment (2)Between, medial compartment(2)And cathode chamber(3)Between be respectively separated by with a cationic membrane, formed the film of three Room two structure;In anode Room(1)Middle insertion plate(4), cathode chamber(3)Middle insertion cathode plate(5);Plate(4)And cathode plate(5)It Between connect power supply(8);By material inlet(10)Successively through first circulation pump(14), the first filter(15)Jointed anode room afterwards (1)Bottom, by medial compartment(2)The second circulation pump that bottom itself connection is mutually concatenated(16)With the second filter(17), second Filter(17)With medial compartment(2)With pipeline jointed anode room between bottom(1)Bottom;By cathode chamber(3)Bottom itself is connected The 3rd circulating pump mutually concatenated(18)With the 3rd filter(19), in the 3rd filter(19)And cathode chamber(3)Between bottom with Pipeline connects medial compartment(2)Bottom;By anode chamber(1)Top is successively through the 4th circulating pump(21), the 4th filter(22)After go here and there Connect material outlet(23);By cathode chamber(3)The circulating pump of top the 5th(20)Connect filler;
2)By concentration for 30% ~ 50% the benzyltrimethylammonium chloride aqueous solution from material inlet(10)Successively through first circulation pump (14), the first filter(15)Afterwards from anode chamber(1)Bottom enters anode chamber(1)In, by the benzyl trimethyl that concentration is 5 ~ 30% Ammonium hydroxide aqueous solution adds medial compartment(2)In, by concentration for 5 ~ 30% the benzyltrimethylammonium hydroxide aqueous solution from filler Again through the 5th circulating pump(20)Add cathode chamber(3)In;All circulating pumps are opened, are turned on the power(8)Connect anode pole Plate(4)And cathode plate(5)Continuous electrolysis, during continuous electrolysis, anode chamber(1)In, benzyltrimethylammonium chloride hydrolysis generation benzyl Base trimethyl ammonium cation C10H16N+And anion Cl-, water, which can be hydrolyzed, generates H+And OH-, C10H16N+、H+With the portion in solution Divide metal cation RN+Enter medial compartment through cation-exchange membrane(2)It is interior, Cl-With OH-Reach plate(4)After produce Chlorine and oxygen discharge, part RN+With OH-Generate sediment, sediment and remainder RN+Through the 4th circulating pump(21)Return By the 4th filter during head tank(22)Remove;Medial compartment( 2)In, C10H16N+With OH-Generate benzyltrimethylammonium hydroxide C10H16NOH, part RN+With OH-The sediment of generation is through second circulation pump(16)Interior circulation is by the second filter(17)Remove, portion Divide C10H16NOH enters anode chamber(1)It is interior;Into anode chamber(1)Cl-Reach plate(4)Gas discharge is produced afterwards;It is cloudy Pole room(3)In, C10H16N+With OH-Produce C10H16NOH, H+Reach cathode plate(4)Generate H2It is expelled directly out, part C10H16NOH Into medial compartment(2)It is interior, part RN+With OH-Sediment is generated through the 3rd circulating pump(18)By the 3rd filter(19)Remove;
3)In cathode chamber after continuous electrolysis(3)In obtain concentration be 5% ~ 30% benzyltrimethylammonium hydroxide, from cathode chamber( 3)The discharging opening output of bottom.
2. the method that the film continuous electrolysis of three Room two according to claim 1 prepares high-purity benzyltrimethylammonium hydroxide, its It is characterized in:Step 2)In, cathode chamber(3)When requiring supplementation with water, through filler and the 5th circulating pump(20)Add water.
3. the method that the film continuous electrolysis of three Room two according to claim 1 prepares high-purity benzyltrimethylammonium hydroxide, its It is characterized in:Step 2)In, current density during continuous electrolysis is 800 ~ 2000 A/m2
4. the method that the film continuous electrolysis of three Room two according to claim 1 prepares high-purity benzyltrimethylammonium hydroxide, its It is characterized in:The temperature of continuous electrolysis is 25 ~ 70 DEG C in electrolytic cell.
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CN110158114B (en) * 2019-05-31 2020-10-27 中触媒新材料股份有限公司 Three-membrane four-chamber electrolysis system and method for preparing tetraalkylammonium hydroxide
CN111592024B (en) * 2020-04-24 2022-09-06 广西科学院 Method for preparing submicron solid spherical calcium carbonate from calcium chloride

Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5389211A (en) * 1993-11-08 1995-02-14 Sachem, Inc. Method for producing high purity hydroxides and alkoxides
US5575901A (en) * 1995-01-31 1996-11-19 Sachem, Inc. Process for preparing organic and inorganic hydroxides or alkoxides or ammonia or organic amines from the corresponding salts by electrolysis
CN1630548A (en) * 2000-10-27 2005-06-22 弗来克塞斯股份有限公司 Process for improving the purity of quaternary ammonium hydroxides by electrolysis
RU2292334C1 (en) * 2005-09-06 2007-01-27 Государственное образовательное учреждение высшего профессионального образования "Уфимский государственный нефтяной технический университет" Method for preparing quaternary ammonium alkoxides
CN102206832A (en) * 2011-04-29 2011-10-05 郑州大学 Method for preparing electronic-grade tetramethylammonium hydroxide (TMAH)
CN102400173A (en) * 2011-11-25 2012-04-04 赵文洲 Method for preparing electronic grade tetramethylammonium hydroxide by continuous method
CN102828198A (en) * 2012-09-24 2012-12-19 山东东岳高分子材料有限公司 Method for preparing high-purity quaternary ammonium hydroxide by electrolyzing organic ammonium salt with perfluorinated ion exchange membrane in chlor-alkali
CN103526224A (en) * 2013-09-22 2014-01-22 镇江润晶高纯化工有限公司 Method for preparing high-purity tetraethylammonium hydroxide by continuous electrolysis
CN104073837A (en) * 2014-07-04 2014-10-01 赵文洲 Method for reducing anions in quaternary ammonium base by virtue of continuous electrolysis

Patent Citations (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5389211A (en) * 1993-11-08 1995-02-14 Sachem, Inc. Method for producing high purity hydroxides and alkoxides
US5575901A (en) * 1995-01-31 1996-11-19 Sachem, Inc. Process for preparing organic and inorganic hydroxides or alkoxides or ammonia or organic amines from the corresponding salts by electrolysis
CN1630548A (en) * 2000-10-27 2005-06-22 弗来克塞斯股份有限公司 Process for improving the purity of quaternary ammonium hydroxides by electrolysis
RU2292334C1 (en) * 2005-09-06 2007-01-27 Государственное образовательное учреждение высшего профессионального образования "Уфимский государственный нефтяной технический университет" Method for preparing quaternary ammonium alkoxides
CN102206832A (en) * 2011-04-29 2011-10-05 郑州大学 Method for preparing electronic-grade tetramethylammonium hydroxide (TMAH)
CN102400173A (en) * 2011-11-25 2012-04-04 赵文洲 Method for preparing electronic grade tetramethylammonium hydroxide by continuous method
CN102828198A (en) * 2012-09-24 2012-12-19 山东东岳高分子材料有限公司 Method for preparing high-purity quaternary ammonium hydroxide by electrolyzing organic ammonium salt with perfluorinated ion exchange membrane in chlor-alkali
CN103526224A (en) * 2013-09-22 2014-01-22 镇江润晶高纯化工有限公司 Method for preparing high-purity tetraethylammonium hydroxide by continuous electrolysis
CN104073837A (en) * 2014-07-04 2014-10-01 赵文洲 Method for reducing anions in quaternary ammonium base by virtue of continuous electrolysis

Non-Patent Citations (2)

* Cited by examiner, † Cited by third party
Title
三室两膜电解法制备四甲基氢氧化铵研究;许小荣;《郑州大学硕士学位论文》;20120915;第11-20页 *
双极膜电渗析技术制备季铵碱过程的研究;余杰;《浙江工业大学硕士学位论文》;20140515;第23-43页 *

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